Method of conversion of a hard-copy document containing text or image data into the electronic document and a device therefore.

ABSTRACT

A method of obtaining graphical information from a single-or multi-page document printed on a hard media where reading out of the position of the document elements is performed by using a method of volumetric scanning of a document (even closed) is described. Processing of scanning results, comprises joining up the separate scanning layers scanning results, removing noise, correction of document image orientation, dividing information into portions relating to separate pages, is performed after reading the information. Then text information recognition contained in the graphical file is performed. Information may be read out by using methods of magnetic resonance scanning, supersonic scanning, X-ray scanning etc. The results of scanning in electronic form may be stored for further transmission thereof on a medium or via communication channels to a distant location for recognition. A device for realization of the described method is also disclosed.

The present invention relates generally to the area of document type conversion and particularly to printed hard-copy documents conversion with text or image data either single- or multi-page into electronic form via scanning of the initial document.

PRIOR ART

Methods and devices for scanning of documents capable of scanning single pages or lists of a document by means of radiating its surface, on which text is printed or embossed, by visible or other radiation (electromagnetic or other) and picking up the echoed signal are known in the art. Radiation types which do not penetrate into carrier material and print material and well reflected from the carrier material are used. Use of such scanners is based on the different intensity of the signal reflected from the carrier surface and the signal reflected from the surface of an embossed image (glyph). Such devices comprise well-known optical scanners for inputting images into a computer (for example, U.S. Pat. No. 4,677,494, Sue, Jun. 30, 1987).

Scanners for topographic scanning, applied, for example, for nondestructive checking of products or for medical diagnostics, are known in the art (for example, U.S. Pat. No. 5,386,446, Fujimoto, et al., Jan. 31, 1995). Radiation types penetrating to some extent into the carrier material and print material and reflected from their surfaces to a variable degree are used. Use of such scanners is based on the different intensity of the signal reflected from the division surface between the materials which have different properties.

The known methods and devices for scanning allow processing one page at a time (one-sided scanning) or one list at a time (double-sided, or duplex, scanning). The document sustains a considerable mechanical impact. Some document types, for example, old books, do not allow scanning without special treatment, such as mechanical division into pages. This may cause the loss of information as well as damage to a valuable book.

This shortcoming of the known methods and devices confines greatly the ability of using thereof for data reading out from multi-page documents.

The technical result of the proposed invention comprises the manual input operations portion decrease and hard copy document data input time decrease, eliminating of possible data loss or document damage on reading out of data therefrom.

The known methods and devices cannot be used to obtain the declared technical result, which is obtained herein via using a volumetric (3-dimensional) scanning applied, for example, for nondestructive check in solid objects quality control or for diagnostic purposes in medicine (see also U.S. Pat. No. 5,386,446, Fujimoto, et al., Jan. 31, 1995.

The following kinds of radiation are used for the volumetric scanning

On the volumetric scanning the particular kinds of radiation are applied—capable to some extent to penetrate into the object as well as in the defective or the like areas thereof and changes the echoed or passed signal.

The intensity of the echoed or passed signal in different mediums depends on their physical properties. That's why the radiation type for volumetric scanning of books is chosen considering paper and printer's ink physical properties. The radiation must alter differently hitting the data carrier media and printed data signs media.

SUMMARY OF THE INVENTION

The declared technical result is achieved by using a scanning method and device in which radiation type is chosen depending on the physical properties of the document's media matter and the printer's ink matter, so that the chosen radiation has different reflectivity and/or refractivity therein.

The proposed method comprises the scanning of single- or multi-page hard copy documents by using a method of volumetric scanning of printed or embossed information.

The proposed device comprises the scanning of single- or multi-page hard copy documents by using a device for volumetric scanning of printed or embossed information. A device for volumetric scanning is chosen so that the affecting radiation or another affecting factor has different reflective and/or penetration capability in a document's media matter and in the printer's ink matter. If a document is formed by locally changing the volume or the shape of the media matter, then the difference in reflective and/or penetration and/or refractive capability depends on the density of the media matter and/or the presence of local voids in the matter or between pages. The resolution capacity of the volumetric scanning device is chosen to be sufficient for accurately detecting all document image elements. The thickness of a unit (single) scanning layer must be at least no greater than the thickness of a document page.

A volumetric scanning device may be based on the principle of nuclear magnetic resonance, supersonic effect, X-radiation or other principles, depending on the document matter, the printing matter (data image (or printer's ink) matter), required resolution capacity, and other factors.

BRIEF DESCRIPTION OF THE DRAWINGS

The essence of the invention is illustrated by the FIGS. 1, 2 and 3.

FIG. 1 An approximate embodiment of a multi-page document, obtained with by using the proposed invention.

FIG. 2 Scanning of multi-page documents moving on a conveyer.

FIG. 3 The main units comprising the proposed device.

FIG. 1 represents the result of the volumetric scanning of multi-page document (the example comprises 3 sheets document). For the better representation the text referring to different pages is shown by the font of different thickness.

FIG. 2 and FIG. 3 shows a device for the volumetric scanning in a simplified form and an initial document placing therein.

DETAILED DESCRIPTION OF THE INVENTION.

The arbitrary spatially oriented document 1 is placed into the scanning means operating area 3, for example, feeding by conveyer 2.

The layer-by-layer scanning is performed with each layer scanning results storage.

On obtaining the whole set of layers data, the results are combined, all the irrelevant data (noise incl.) is eliminated, and the electronic document orientation is adjusted to that suitable for the further processing.

After that the graphical data referring to each document page is singled out (extracted).

The graphical data presumably containing text is directed for recognition by one of the known means.

The recognition results may be then saved.

The volumetric scanning means 3 is connected to a single layers scanning results combining means 4, further connected to an irrelevant data elimination (clearing) means, further connected to spatial orientation adjustment means 6, and further connected to single pages portions division means 7. Further a device for the text recognition from the graphical file may be connected. A device for the text recognition from the graphical file may be located distantly. In this case all stored data is transferred distantly to the place of further processing (incl. recognition) by any of the known and commonly used means: by physical media, via internet or by other communication channels.

The mentioned devices may be realized either as separate devices or electronic blocks, or may be joined into groups or in the entire joint block (module)

The data processing means (scanning results combination, data preliminary processing and data recognition) may be realized on the base of one or more data processing means on the base of computer. Moreover, to the abovementioned devices may be provided with data storage means, either text and/or graphic, on the base of the same or the different device.

Depending on the data media matter, data image matter, required resolution, other parameters, the volumetric scanning means used should be based on the nuclear-magnetic resonance, ultra-sonic, X-ray, X-ray tomography or other principles.

The volumetric scanning means is chosen so that its effecting radiation (or the other effecting factor) has different altering ability (on echoing or passing, on reflecting or refracting etc.) hitting the data media matter and data image (printer's ink) matter.

In a case the document is formed by the media matter local volume or shape altering, the difference in the reflecting or refracting ability appears due to local altering of the media matter density and/or presence of local hollows in the matter or between the document paper sheets.

The volumetric scanning means resolution is chosen to be sufficient for reliable recognition of all image constituents (elements) on the data media.

The thickness of the single scanned layer should be not more then the document single sheet.

In the volumetric scanning the multi-page document is assumed as a three-dimensional object, and the required technical result is obtained by the addition (introduction) of supplementary operations, performed by a computer (single layers combination, single pages data extraction, etc.)

The essence of the suggestion is illustrated in FIGS. 1-3.

The results of multi-page document processing (a three-page document is used as an example) are shown in FIG. 1. Text in FIG. 1 has different thickness only for greater obviousness and ability to attribute text to its corresponding page. The present results look like a text array printed in a font whose thickness is the same as in the original document.

The essence of the suggestion as regards the method is illustrated in FIGS. 2 and 3.

A single- or multi-page document (1) arbitrarily oriented in space is placed in a scanning region (3), for example, by a document feeder that uses a conveyer (3). The layer-by-layer scanning is performed and the results of scanning are saved for each layer. Once information about the whole set of layers is obtained, the data about the layers are merged, extraneous information (noise) is erased, and orientation convenient for further processing is set. Graphical information which presumably contains text is then sent for recognition by one of the known methods. The results of recognition may be further saved.

The essence of the suggestion as regards the device is illustrated in FIGS. 2 and 3.

A single- or multi-page document (1) with arbitrary orientation in space is placed in a scanning region. A device for volumetric scanning is adapted for effective separation of signals obtained from the image and from the carrier material. A device for volumetric scanning is connected with a device for joining up of scanning results of unit layers (4) and further with a device for preliminary processing of scanning results (5) which consists in cleaning up noise, correction of orientation (6), dividing into portions (parts) (7), relating to unit pages and so on. Further a device for recognition of text information contained in a graphical file may be connected. Enumerated separate devices may be embodied as separate modules or united in groups or into an integrated module. Tools for information processing (integration of the results of scanning, preliminary processing of information, and recognition) may be built on the basis of one or more computer-based tools for information processing. Additionally, a device for saving graphical and/or text information may be connected to this one or another device.

Results of volumetric scanning, after they are obtained from a scanner or after preliminary processing such as integration of scanning results, may be transmitted, on carriers or via communication channels or by another way, to a place where preliminary processing, recognition, systematization, and other operations are performed. The said place may be located at a distance from the place of scanning.

Operations of scanning and further processing of information (including saving) may also be separate in time.

Depending on the material of a document, material used for printing, required resolution capacity, and other factors, a nuclear magnetic resonance (NMR), supersonic or X-ray (X-ray tomography) volumetric scanning device or other known tools are applied 

1. A method of converting text or graphical single- or multi-page hard-copy documents into electronic form via scanning the initial document, comprising radiation treatment of the document with a printed or volumetric-formed or embossed text; receiving a reflected or refracted signal; combining the received signal information; rendering the electronic document, said scanning is performing using volumetric scanning, said radiation having different reflecting or refracting ability in the medium matter, and volumetric-formed letters matter and/or in the matter of the printed letters thereon, said volumetric scanning comprising imaginary division of the scanned document into a plurality of layers and scanning of said single layers one after another.
 2. The method as recited in claim 1, where combining the received signal information is performed via consolidation of information obtained from scanning of said plurality single layers.
 3. The method as recited in claims 1, where said rendering the electronic document, further comprising removing noise; document image orientation adjustment if necessary; division of electronic document information into parts relating to single pages of the initial document.
 4. The method as recited in claim 1, where said volumetric scanning is performed at the resolution sufficient for reliable distinguishing of information signs on said medium and said single layers are assigned to be not thicker then the single medium sheet being scanned.
 5. The method as recited in claim 1, where the data scanning is performed with the use of nuclear-magnetic resonance means.
 6. The method as recited in claim 1, where the data scanning is performed with the use of ultra sonic means.
 7. The method as recited in claim 1, where the data scanning is performed with the use of X-ray means.
 8. The method as recited in claim 3, where the obtained data, presumably containing text, is further sent to recognition.
 9. The method as recited in claim 3, where the obtained data in electronic form is stored in memory and further transmitted distantly for recognition to a geographically different place.
 10. A device for conversion of text or graphical single- or multi-page hard-copy document into electronic form via scanning the initial document, comprising a volumetric scanning means to obtain information from said document, said volumetric scanning means using a radiation that has different reflecting or refracting ability in the medium matter, and volumetric-formed letters matter and/or in the matter of printed letters thereon, said volumetric scanning means scanning the document as a plurality of single layers, comprising thereof; means for consolidation of said plurality of scanned single layers information; means for noise removal; means for document image orientation adjustment; means for division of electronic document information into portions relating to single pages.
 11. The device as recited in claim 10, where said single scanned layer is thinner then the single sheet of the document being scanned.
 12. The device as recited in claim 10, further comprising text recognition means.
 13. The device as recited in claim 10, where all parts thereof are realized as separate modules or are combined into groups or are combined into a single module.
 14. The device as recited in claim 10, further comprising graphical and/or text data storage means.
 15. The device as recited in claim 10, where said device is realized on the basis of one or more data processing means on the basis of a computer.
 16. The device as recited in claim 10, where the scanning means is realized on the basis of nuclear magnetic resonance means.
 17. The device as recited in claim 10, where the scanning means is realized on the basis of ultrasonic means.
 18. The device as recited in claim 10, where the scanning means is realized on the basis of X-pray means. 